A team of roboticists at the University of California San Diego and BASF Corporation has developed a unique 3D-printed soft robotic gripper that operates without the need for electronics. So, how does ...

Researchers have successfully 3D-printed a soft robotic gripper that can function immediately after fabrication without any electronics technology, allowing it to function both mounted or untethered ...

This soft robotic gripper is not only 3D printed in one print, it also doesn't need any electronics to work. This soft robotic gripper is not only 3D printed in one print, it also doesn't need any ...

1. Joints - The Foundation of Movement Joints are the moving links in a robotic arm. They let the arm bend, rotate, or change ...

Applications for 3D printing/additive manufacturing has grown by leaps and bounds over the past decade—particularly for its use to produce production- and assembly-ready parts, not just prototypes.

And while 3D printing technology has gotten much more accessible and sophisticated, other applications of automation, by comparison, seem stuck in their ways. Take, for example, a modern assembly line ...

With 3D inkjet printing systems, engineers can fabricate hybrid structures that have soft and rigid components, like robotic grippers that are strong enough to grasp heavy objects but soft enough to ...

University of Science and Technology of China has made a fascinating development in robotics, with the octopus-inspired robotic arm led by Nikolaos Freris. It combines the dexterity of a human hand ...

video: Video of a soft robotic gripper is not only 3D printed in one print, it also doesn’t need any electronics to work. The device was developed by a team of roboticists at the University of ...

Video of a soft robotic gripper is not only 3D printed in one print, it also doesn’t need any electronics to work. The device was developed by a team of roboticists at the University of California San ...